―ilm-fan va ta‘limda innovatsion yondashuvlar, muammolar, taklif va yechimlar‖ mavzusidagi

―ILM-FAN VA TA‘LIMDA INNOVATSION YONDASHUVLAR, MUAMMOLAR, TAKLIF VA YECHIMLAR‖ MAVZUSIDAGI

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• IMPROVING ENERGY EFFICIENCY IN INDUSTRIAL ENERGY SYSTEMS Saydullayeva Dildora Odiljonovna Student of Navoi State Mining Institute

―ILM-FAN VA TA‘LIMDA INNOVATSION YONDASHUVLAR, MUAMMOLAR, TAKLIF VA YECHIMLAR‖ MAVZUSIDAGI 4-SONLI RESPUBLIKA ILMIY-ONLAYN KONFERENSIYASI     30 - SENTABR 2020 - YIL  ―UzACADEMIA‖ scientific-methodical journal             349  www.academiascience.uz IMPROVING ENERGY EFFICIENCY IN INDUSTRIAL ENERGY SYSTEMS    Saydullayeva Dildora Odiljonovna  Student of Navoi State Mining Institute dildoraodiljonovna@gmail.com    Abstract: Countries around the world face critical energy choices today that  may have significant implications for many years to come. Economic growth and  future prosperity are challenged by rapidly increasing energy needs worldwide.  Key words: Energy efficiency, technical definition, productivity.  Energy efficiency is a widely used term that suffers from issues of definition.  This can be a cause of confusion. In a strictly technical definition, energy efficiency  is simply useful energy output over energy input for any energy conversion device.  For instance in an internal combustion engine, the energy output will be the rotational  energy at the driveshaft whilst the energy input will be the chemical energy contained  within the fuel.For a power station, the efficiency will be useful electricity out  divided by the energy content of the fuel input. However, this technical definition is not what is usually meant by energy  efficiency. Energy efficiency enables services, such as lighting,to be provided at the  same quality using lees energy. Energy is used in two types of systems: conversion  devices such as internal combustion engines, light bulbs or power stations, and  passive systems such as buildings where use- ful energy is degraded to low-grade  heat in return for providing useful services such as thermal comfort. Efficiency is  typically expressed in percentage terms.The percentage improves when a lower  supply of energy achieves the same or better service output.For example,an energy  efficient,ductless air conditioning heat pump system typically uses half the energy of  a standard air conditioner but provides the same or better cooling output.Efficiency  can also be understood in terms of productivity.  Two other areas related to energy efficiency are demand response and  distributed generation.An example of distributed generation is Combined Heat and  Power (CHP) (also called cogeneration).Demand response is the short-term shifting  of electrical load to reduce stress on the electrical system, which in some jurisdictions  is encouraged by incentive schemes. Again, strictly this is not energy efficiency but,  like the use of renew- ables, the use of demand response may improve the overall  efficiency of the electricity system by avoiding bringing inefficient power stations  into operation for short periods to meet peak loads.  Industry matters as a primary source for energy Download 6,45 Mb. Do'stlaringiz bilan baham: